Stable transduction of the neonatal mouse liver using a hybrid rAAV/sleeping beauty transposon gene delivery system

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Sharon C. Cunningham, Philip M. Zakas, Natsuki Sasaki, Eva B. van Dijk, Erhua Zhu, Yanfang Fu, William E. Salomon, Robert J. Citorik, Jacob R. Rubens, Cecilia Cotta-Ramusino, William Querbes, Ian E. Alexander
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Abstract

Background

Conventional adeno-associated viral (AAV) vectors, while highly effective in quiescent cells such as hepatocytes in the adult liver, confer less durable transgene expression in proliferating cells owing to episome loss. Sustained therapeutic success is therefore less likely in liver disorders requiring early intervention. We have previously developed a hybrid, dual virion approach, recombinant AAV (rAAV)/piggyBac transposon system capable of achieving stable gene transfer in proliferating hepatocytes at levels many fold above conventional AAV vectors. An alternative transposon system, Sleeping Beauty, has been widely used for ex vivo gene delivery; however liver-targeted delivery using a hybrid rAAV/Sleeping Beauty approach remains relatively unexplored.

Methods

We investigated the capacity of a Sleeping Beauty (SB)-based dual rAAV virion approach to achieve stable and efficient gene transfer to the newborn murine liver using transposable therapeutic cassettes encoding coagulation factor IX or ornithine transcarbamylase (OTC).

Results

At equivalent doses, rAAV/SB100X transduced hepatocytes with high efficiency, achieving stable expression into adulthood. Compared with conventional AAV, the proportion of hepatocytes transduced, and factor IX and OTC activity levels, were both markedly increased. The proportion of hepatocytes stably transduced increased 4- to 8-fold from <5%, and activity levels increased correspondingly, with markedly increased survival and stable urinary orotate levels in the OTC-deficient Spfash mouse following elimination of residual endogenous murine OTC.

Conclusions

The present study demonstrates the first in vivo utility of a hybrid rAAV/SB100X transposon system to achieve stable long-term therapeutic gene expression following delivery to the highly proliferative newborn mouse liver. These results have relevance to the treatment of genetic metabolic liver diseases with neonatal onset.

Abstract Image

使用混合 rAAV/睡美人转座子基因递送系统对新生小鼠肝脏进行稳定转导。
背景:传统的腺相关病毒(AAV)载体虽然对静止细胞(如成人肝脏中的肝细胞)非常有效,但由于外显子丢失,在增殖细胞中转基因表达的持久性较差。因此,在需要早期干预的肝脏疾病中,持续治疗成功的可能性较小。我们之前开发了一种混合双病毒方法,即重组 AAV(rAAV)/piggyBac 转座子系统,能够在增殖肝细胞中实现稳定的基因转移,其水平比传统 AAV 载体高出许多倍。另一种转座子系统 "睡美人 "已被广泛用于体内外基因递送,但使用rAAV/"睡美人 "混合方法进行肝脏靶向递送的研究相对较少:我们研究了基于睡美人(SB)的双 rAAV 病毒方法,利用编码凝血因子 IX 或鸟氨酸转氨酶(OTC)的可转座治疗盒实现稳定、高效的基因转移到新生小鼠肝脏的能力:结果:在同等剂量下,rAAV/SB100X 转导肝细胞的效率很高,可稳定表达至成年。与传统 AAV 相比,转导的肝细胞比例、因子 IX 和 OTC 活性水平均显著提高。在消除残留的内源性小鼠 OTC 后,稳定转导的肝细胞比例比灰鼠增加了 4 到 8 倍:本研究首次证明了混合 rAAV/SB100X 转座子系统在体内的实用性,该系统可在向高度增殖的新生小鼠肝脏输送基因后实现长期稳定的治疗基因表达。这些结果对治疗新生儿发病的遗传代谢性肝病具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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